Abstract
Bacteriophage lambda uses site-specific recombination to move its DNA into and out of the Escherichia coli genome. The recombination event is mediated by the recombinase integrase (Int) together with several accessory proteins through short specific DNA sequences known as attachment sites. A gel mobility shift assay has been used to show that, in the absence of accessory proteins, Int can align and hold together two DNA molecules, each with an attachment site, to form stable non-covalent 'bimolecular complexes'. Each attachment site must have both core and arm binding sites for Int to participate in a bimolecular complex. These stable structures can be formed between pairs of attL and attP attachment sites, but cannot include attB or attR sites; they are inhibited by integration host factor (IHF) protein. The bimolecular complexes are shown to represent a synaptic intermediate in the reaction in which Int protein promotes the IHF-independent recombination of two attL sites. These complexes should enable a detailed analysis of synapsis for this pathway.
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